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Singapore: LNG Terminal to Develop Data Center

Maritime Activity Reports, Inc.

October 21, 2019

The National University of Singapore's Faculty of Engineering (NUS), Singapore LNG Corporation (SLNG) and Keppel Data Centers Holdings join forces to develop new energy-efficient cooling technology for data centers.

This innovation could further pave the way for more sustainable and compact data centers, said Singaporean conglomerate Keppel Corporation.

With the rapid expansion of cloud-based services, AI, the Internet of Things and big data analytics, there has been an exponential demand across the globe for data centers in recent years. As the leading data center hub of Southeast Asia, Singapore accounted for around 50 per cent of the region's data center capacity in 2015.

Due to the high internal load and the need for consistent cooling and operation in a tightly-controlled environment, data centers are among the major power consumers in the building sector.

In addition, Singapore's tropical climate imposes a heavy energy burden on cooling in buildings. In 2018, data centers accounted for 7 per cent1 of the total annual electricity consumption in Singapore.

"About 37 per cent2 of the total energy consumed by data centers is used to cool IT equipment. Therefore, improving the efficiency of the cooling system can result in significant energy savings and reduce the carbon footprint of data centers. In this project, we aim to demonstrate a novel way of storing cold energy released from the Liquefied Natural Gas (LNG) re-gasification process and using it to cool data centers efficiently," said Dean's Chair Associate Professor Praveen Linga, who is from the NUS Department of Chemical and Biomolecular Engineering and the leader of the project team.

A five-member team from NUS Engineering, Keppel Data Centers and SLNG will jointly develop a prototype of a new cooling medium that can achieve two key functions: firstly, to efficiently store and carry cold energy from the Singapore LNG Terminal to the various data centers, and secondly, to be circulated within the cooling loop in each data center to perform effective cooling.

This novel technology, called Semiclathrate Thermal Energy Carrier System (ScTECS), can potentially enable data centers to improve their power usage effectiveness (PUE) by 20 per cent. The footprint of the cooling infrastructure could also be reduced considerably, saving space and construction costs.

Mr Wong Wai Meng, CEO of Keppel Data Centers, said, "As a leading designer, developer and operator of data centers across Asia Pacific and Europe, Keppel Data Centres continues to innovate so as to offer best-in-class, energy-efficient solutions to our customers. We are pleased to collaborate with NUS and SLNG on how we can make cooling, which is a key aspect of data center operations, more efficient, and thus contribute to a more sustainable future."

In conventional chilling technology, a liquid coolant - usually chilled water - is used to cool the air in data centers. Due to the limited thermal capacity of water, large volumes of water are required to supply chilled water in the circulation loop to carry out cooling. Hence, a large infrastructure is required to generate adequate pumping loads to maintain the flow of chilled water in the cooling system.

In this project, the research team will explore the use of semiclathrate hydrates slurries, which are water-based phase-change fluids, as thermal energy carriers to replace chilled water as a cooling medium in the cooling systems used in data centers. The thermal density of the semiclathrate hydrate slurry is two to five times higher compared to chilled water - this significantly reduces the amount of water and power required as well as the size of various equipment and distribution lines.

Assoc Prof Linga explained, "While semiclathrate hydrates have been studied for purposes of gas separation, gas storage as well as thermal energy storage, the challenge lies in the ability to create them efficiently. NUS Engineering researchers will leverage our expertise in hydrate technologies and process engineering to identify a suitable semiclathrate promoter as well as develop a reactor and process design for this novel cooling technology."

Another innovation that the team intends to pursue is to harness and utilize LNG cold energy from LNG re-gasification terminals and use it to offset the energy demands in data centres. Cold energy generated from LNG re-gasification could be stored in phase change materials and distributed to data centers for cooling purposes. As a start, Keppel Data Centres and SLNG are working together to explore ways to harness and utilize the cold energy from the Singapore LNG Terminal. SLNG will provide key technical inputs and advice related to the LNG cold energy to the team.

SLNG's CEO, Mr Tan Soo Koong, commented: "SLNG is conscious of and committed to its responsibility to help fight climate change where it can, especially in reducing energy consumption and carbon emissions. We are therefore pleased to be a part of this innovative collaboration with NUS Engineering and Keppel Data Centers. Concurrently, SLNG is also exploring other ways to harness the LNG cold energy from our terminal and be part of the circular economy in Jurong Island."

The process prototype demonstrating the cooling technology with a capacity of 1 tonne per day will be designed, built and operated for demonstration by 2022 at NUS.

This research project is supported by the National Research Foundation, Prime Minister's Office, Singapore, under its Green Data Center Research Program.

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